An optimized low-pressure tourniquet murine hind limb ischemia reperfusion model: Inducing acute ischemia reperfusion injury in C57BL/6 wild type mice.

Marius Drysch,Felix Reinkemeier,Sonja Verena Schmidt,Johannes Maximilian Wagner,Björn Behr,Marcus Lehnhardt,Christoph Wallner,David Benjamin Lumenta

doi:10.1371/journal.pone.0210961

Marius Drysch, Felix Reinkemeier + Show 6 more

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https://doi.org/10.1371/journal.pone.0210961

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Abstract

Acute ischemia reperfusion injury in skeletal muscle remains an important issue in several fields of regenerative medicine. Thus, a valid model is essential to gain deeper insights into pathophysiological relations and evaluate possible treatment options. While the vascular anatomy of mice regularly prevents sufficient vessel occlusion by invasive methods, there is a multitude of existing models to induce ischemia reperfusion injury without surgical procedures. Since there is no consensus on which model to prefer, this study aims to develop and evaluate a novel, optimized low-pressure tourniquet model. C57BL/6 mice underwent an ischemic procedure by either tourniquet or invasive artery clamping. A sham group served as control. With exception of the sham group, mice underwent 2 hours of ischemia followed by 4 hours of reperfusion. Groups were compared using microcirculatory and spectroscopic measurements, distinctions in tissue edema, histological and immunohistochemical analyses. Both procedures led to a significant decrease in tissue blood flow (- 97% vs. - 86%) and oxygenation (- 87% vs. - 75%) with a superiority of the low-pressure tourniquet. Tissue edema in the tourniquet cohort was significantly increased (+ 59%), while the increase in the clamping cohort was non-significant (+ 7%). Haematoxylin Eosin staining showed significantly more impaired muscle fibers in the tourniquet group (+ 77 p.p. vs. + 11 p.p.) and increased neutrophil infiltration/ROI (+ 51 vs. + 8). Immunofluorescence demonstrated an equal increase of p38 in both groups (7-fold vs. 8-fold), while the increase in apoptotic markers (Caspase-3, 3-Nitrotyrosine, 4-Hydroxynonenal) was significantly higher in the tourniquet group. The low-pressure tourniquet has been proven to produce reproducible and thus reliable ischemia reperfusion injury. In addition, significantly less force was needed than previously stated. It is therefore an important instrument for studying the pathophysiology of ischemia reperfusion injury and for the development of prophylactic as well as therapeutic interventions.

Highlights

Ischemia reperfusion (I/R) injury in skeletal muscle is a well-known problem in many medical disciplines
Low-pressure tourniquet leads to a stronger decrease in hind limb perfusion than femoral artery clamping
We systematically investigated the influence of different amounts of pressure on hind limb perfusion with the tourniquet method

Summary

Introduction

Ischemia reperfusion (I/R) injury in skeletal muscle is a well-known problem in many medical disciplines. Apart from the local component, I/R injury can lead to systemic inflammatory response, multiple organ dysfunction syndrome and even death [2,3]. In order to study underlying mechanisms and gain deeper insights into pathophysiological relations, a valid I/R model is essential. There are several studies available that investigate new therapeutic targets and methods for preventing I/R injury based on animal experiments [4]. The fact that different studies use different methods to induce I/R injury inevitably impairs the reproducibility of those findings. It is crucial to have access to a standardized model as basis for future investigations

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